The present disclosure relates to compartment systems for storing and organizing various items and objects, and more particularly to dividers configured to fit within pre-existing boxes and separate the same into various storage compartments.
A variety of devices for storing and organizing various objects exist in the marketplace today. Two-piece lid and container products are typically presented to consumers as a device specialized in the storing and organizing of objects. Often times, consumers already possess many kinds of containers or boxes which, in lieu of having to purchase a specifically designated product, could be used to store and organize objects. These boxes may be left over from delivered packages or from prior life events, such as moving homes. However, left over or existing boxes in most consumers' possession have only a single interior region for storage or do not otherwise provide a means to organize stored items.
Divider systems are available for boxes and containers; however, many of these available dividers are not durable and result in sections of the divider disengaging when the box and container are moved.
There remains a need for a novel compartment system and divider associated therewith that provides sufficient organization to existing boxes in a wide range of sizes.
In accordance with one non-limiting aspect of the present disclosure, a compartment system is disclosed which includes a box, a lid, and an exemplary divider configured in accordance with the present disclosure. The divider is configured to fit within the interior area of the box and separate the interior area into a plurality of storage regions or compartments. The divider is generally made of one or more sidewalls, one or more transverse divider walls, and optionally one or more axial divider walls. The walls which make up the divider mate or interconnect to form additional storage compartments when in an assembled configuration with an associated box or container. Generally, the front and/or back face of the one or more sidewalls, one or more transverse divider walls, and the one or more axial divider walls (when used) are generally flat; however, this is not required. Generally, the body of the one or more sidewalls, one or more transverse divider walls, and the one or more axial divider walls (when used) lie in the longitudinal axis of the respective component of the divider; however, this is not required.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the divider further includes one or more sidewalls, one or more transverse divider walls, and one or more axial divider walls. In one non-limiting embodiment, one or more of the sidewalls, transverse divider walls, and/or axial divider walls include at least one or more of a female connecting feature and/or a male connecting feature.
In accordance with another and/or alternative non-limiting aspect of the compartment system, one or more of the female connecting features include slots and one or more of the male connecting features include flanges.
In accordance with another and/or alternative non-limiting aspect of the compartment system, at least one of the one or more transverse divider walls further includes a floor.
In accordance with another and/or alternative non-limiting aspect of the compartment system, there is provided a method of forming a compartment system. The method includes providing a box and a lid and forming a divider from one or more sidewalls, one or more transverse divider walls, and one or more axial divider walls and, placing the divider into the box.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the method of forming the divider further includes providing at least one partially complete element for each of the one or more sidewalls, one or more transverse divider walls, and one or more axial divider walls and manipulating each of the at least one partially complete elements to form the one or more sidewalls, one or more transverse divider walls, and one or more axial divider walls.
In accordance with another and/or alternative non-limiting aspect of the compartment system, there is provided a compartment system that includes a divider, a box, and an optional lid. In one non-limiting embodiment, the divider is configured to be insertable into and removable from the interior area of the box. The divider is adapted to fit within the interior area of the box, thereby separating the box into various compartments or interior regions. The optional lid is adapted to fit over the box and divider. Generally, the maximum height of the divider, when fully assembled, is less than or equal to the height of one or more of the sidewalls of the interior area of the box such that the divider does not extend above one or more of the sidewalls of the interior area of the box when the diver is placed in the interior area of the box.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the divider generally includes one or more sidewalls, one or more transverse divider walls, and optionally one or more axial divider walls. At least one transverse divider wall is generally configured to engage at least two sidewalls and to facilitate in maintaining a space between the at least two sidewalls when the transverse divider wall is assembled with at least two of the sidewalls. When the compartment system includes two or more transverse divider walls, generally two or all of the transverse divider walls are configured to engage at least two sidewalls and facilitate in maintaining a space between the at least two sidewalls when the transverse divider walls are assembled with at least two of the sidewalls; however, this is not required. When one or more axial divider walls are optionally used, at least one of the axial divider walls are generally configured to engage at least two transverse dividers walls and to facilitate in maintaining a space between the at least two transverse dividers walls when the axial divider wall is assembled with at least two of the transverse divider walls. When two or more axial divider walls are optionally used, the two or more axial divider walls are generally configured to engage at least two transverse dividers walls and to facilitate in maintaining a space between the at least two transverse dividers walls when the two or more axial divider walls are assembled with at least two of the transverse divider walls; however, this is not required. In one non-limiting embodiment, one or all of the transverse divider walls are oriented generally transverse to one or more of the sidewalls when one or more of the transverse divider walls are assembled with at least two of the sidewalls; however, this is not required. In another non-limiting embodiment, one or all of the axial divider walls are oriented generally transverse to one or more of the transverse divider walls when one or more of the axial divider walls are assembled with at least two of the transverse divider walls; however, this is not required. As used herein, the term “transverse” generally means that a wall is at a right angle. In another non-limiting embodiment, all of the transverse divider walls are oriented generally transverse to the sidewalls, and all of the axial divider walls (when used) are oriented generally parallel to the sidewalls and generally transverse to the transverse divider walls; however, this is not required.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the divider generally includes two or more sidewalls, two or more transverse divider walls, and optionally two or more axial divider walls, and wherein one transverse divider wall is spaced a distance TD1 from one interior side of the interior area of the box, and a second transverse divider wall is a spaced a distance TD2 from an opposite interior side of the interior area of the box when the divider is assembled and placed in the interior area of the box, and wherein distance TD1 is within ±5% of TD2, and typically TD1 is equal to TD2. In one non-limiting embodiment, TD1 and TD2 are greater than or equal to 1 inch. In another non-limiting embodiment, TD1 and/or TD2 is equal to or within ±5% of a distance between two of the transverse divider walls, and typically TD1 and/or TD2 is equal to the distance between two of the transverse divider walls.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the divider generally includes two or more sidewalls, two or more transverse divider walls, and one or more axial divider walls, and wherein one axial divider is spaced a distance AD1 from one interior side of the interior area of the box, and spaced a distance AD2 from an opposite interior side of the interior area of the box when the divider is assembled and placed in the interior area of the box, and wherein distance AD1 is within ±5% of AD2, and typically AD1 is equal to AD2. In one non-limiting embodiment, AD1 and AD2 are greater than or equal to 1 inch. In another non-limiting embodiment, the divider generally includes two or more sidewalls, two or more transverse divider walls, and two or more axial divider walls, and wherein one axial divider is spaced a distance AD1 from one interior side of the interior area of the box, and a second axial divider is spaced a distance AD2 from an opposite interior side of the interior area of the box when the divider is assembled and placed in the interior area of the box, and wherein distance AD1 is within ±5% of AD2, and typically AD1 is equal to AD2. In another non-limiting embodiment, TD1 and/or TD2 is equal to or within ±5% of a distance between two of the axial divider walls, and typically TD1 and/or TD2 is equal to the distance between two of the axial divider walls.
In accordance with another and/or alternative non-limiting aspect of the compartment system, a first side wall of the divider has a longitudinal length that is at least 90% of the longitudinal length of the interior side of the interior area of the box to which the first side wall is positioned against or closely adjacent to (e.g., less than 1 in.), and typically 90-105% (and all values and ranges therebetween) of the longitudinal length of the interior side of the interior area of the box to which the first side wall is positioned against or closely adjacent to. In another non-limiting embodiment, a second side wall of the divider has a longitudinal length that is at least 90% of the longitudinal length of the interior side of the interior area of the box to which the second side wall is positioned against or closely adjacent to (e.g., less than 1 in.), and typically 90-105% (and all values and ranges therebetween) of the longitudinal length of the interior side of the interior area of the box to which the first side wall is positioned against or closely adjacent to. In another non-limiting embodiment, the first and second sidewalls of the divider are positioned generally parallel to one another with the divider is assembled and placed in the interior area of the box; however, this is not required.
In accordance with another and/or alternative non-limiting aspect of the compartment system, one or more of the sidewalls of the divider include one or more female connecting features or slots formed on an upper edge of each sidewall. The one or more female connecting features or slots are generally configured to mate with a transverse divider walls. In one non-limiting embodiment, one or more of the sidewalls of the divider include a plurality of female connecting features or slots formed on an upper edge of each sidewall. In another non-limiting embodiment, wherein one female connecting features or slots are spaced a distance from one end of the sidewall that is the same distance as a second female connecting features or slots are spaced from the opposite end of the sidewall (e.g., at least 1 in. from an end of the sidewall). In another non-limiting embodiment, one or more of the sidewalls of the divider include three or more female connecting features or slots formed on an upper edge of each sidewall and wherein a spacing between two female connecting features or slots is the same as the spacing between another two connecting features or slots. In another non-limiting embodiment, the longitudinal length of one or more of the female connecting features or slots is no more than 50% a height of the sidewall. Creating female connecting features or slots that have a height of greater than 50% the height of the sidewall can adversely affect the strength of the sidewall. In one non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 5-50% a height of the sidewall (and all values and ranges therebetween). In another non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 5-45% a height of the sidewall. In another non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 5-40% a height of the sidewall. Generally, the longitudinal length of the female connecting features or slots is the same on a sidewall. Generally, a width (measured along a longitudinal length of the sidewall) of two or more or all of the female connecting features or slots is the same on a sidewall. Generally, a thickness (measured transverse to a longitudinal axis of the sidewall) of two or more or all the female connecting features or slots is the same on a sidewall.
In accordance with another and/or alternative non-limiting aspect of the compartment system, one or more of the transverse divider walls include one or more male connecting features or flanges. The one or more male connecting features or flanges are formed on an upper portion of each side of the transverse divider walls. Each of the connecting features or flanges includes an extension portion that is connected at a first side to the side of the transverse divider wall and which extension portion extends outwardly from the side of the transverse divider wall. The width of the extension portion is generally within ±5% a thickness of the female connecting features or slots on a sidewall to which the transverse divider wall is to be connected to. The extension portion has a height (measured along a height of the transverse divider wall) that is no more than 50% a height of the transverse divider wall. In one non-limiting design, the height of the extension portion is about 5-50% a height of the transverse divider wall (and all values and ranges therebetween). In another non-limiting design, the height of the extension portion is about 5-45% a height of the transverse divider wall. In another non-limiting design, the height of the extension portion is about 5-40% a height of the transverse divider wall. In another non-limiting design, the height of the extension portion is within ±5% of the longitudinal length of the female connecting features or slots of the sidewall to which the transverse divider wall is connected thereto. Each of the connecting features or flanges includes a flange extension that is connected to the second side of the extension portion. The width of the flange extension is generally greater than a width of the extension portion. In one non-limiting configuration, the width of the flange extension is generally 1.1-50 times (and all values and ranges therebetween) the width of the extension portion (i.e., for a width of the extension portion of 0.1 in., the width of the flange extension is 0.11-5 in.). In another non-limiting configuration, the length of the flange extension is generally 2-30 times the width of the extension portion. The height of the flange extension is generally at least 5% of the height of the extension portion. In one non-limiting configuration, the height of the flange extension is 5-1000% (and all values and ranges therebetween) of the height of the extension portion. In another non-limiting configuration, the height of the flange extension is equal to the height of the extension portion. The thickness of the flange extension is generally at least 10% of the thickness of the extension portion. In one non-limiting configuration, the thickness of the flange extension is 10-500% (and all values and ranges therebetween) of the thickness of the extension portion. In another non-limiting configuration, the thickness of the flange extension is equal to the thickness of the extension portion. Prior to the full assembly of the divider, the flange extension can lie in a plane that is parallel or non-parallel to the longitudinal axis of the transverse divider wall. When the front face of the flange extension lies in a plane that is parallel to the longitudinal axis of the transverse divider wall, the flange extension is configured to be bendable at the connection location of the extension portion so that the flange extension can be bent until the front face of the flange extension is at least 60° and typically 80-110° (and all values and ranges therebetween) to the longitudinal axis of the transverse divider wall. Such bending can be facilitated by a groove, scoring, slots, etc. Alternatively, when the flange extension is not configured to be bendable relative to the transverse divider wall, the flange extension is generally oriented about 85-95° (e.g., 90°) to the longitudinal axis of the transverse divider wall.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the one or more male connecting features or flanges are used to facilitate in preventing the ends of transverse divider walls from disengaging from the sidewalls. Components of prior art divider systems can commonly disengage from one another when the containers are moved, tilted, turned over, etc. Such disengagement commonly occurs due to heavy objects resting against the wall of a divider and thereby causing the divider wall to bend and disengage. Such disengagement of the divider components can result in mixing of materials in the different divider components and/or damage to one or more materials in the container. The one or more male connecting features or flanges are configured to prevent the transverse divider walls from disengaging from the sidewalls, thereby overcoming a problem with prior art dividers.
In accordance with another and/or alternative non-limiting aspect of the compartment system, one or more of the transverse divider walls optionally include one or more female connecting features or slots formed on an upper edge of one or more transverse divider walls. The one or more female connecting features or slots are generally configured to mate with an axial divider wall (when used). In another non-limiting embodiment, wherein one female connecting features or slots is spaced a distance (e.g., at least one in. from an end of the transverse divider wall) from one end of the transverse divider wall. In one non-limiting configuration, the transverse divider walls optionally include one female connecting feature or slot formed on an upper edge of one or more transverse divider walls. In one non-limiting configuration, the one female connecting feature or slot is located within ±5% from the longitudinal length midpoint. In another non-limiting configuration, the transverse divider wall optionally includes two female connecting features or slots formed on an upper edge of one or more transverse divider wall. In one non-limiting configuration, a first female connecting features or slots is spaced a distance from a side of the transverse divider wall that is the same distance as a second female connecting features or slots is spaced from the opposite end of the transverse divider wall. In another non-limiting embodiment, the longitudinal length of one or more of the female connecting features or slots is no more than 50% a height of the transverse divider wall. Creating female connecting features or slots that have a height of greater than 50% than the height of the transverse divider wall can adversely affect the strength of the transverse divider wall. In one non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 5-50% a height of the transverse divider wall (and all values and ranges therebetween). In another non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 5-45% a height of the transverse divider wall. In another non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 5-40% a height of the transverse divider wall. When the transverse divider wall includes two or more female connecting features or slots, the longitudinal length of the female connecting features or slots is the same; however, this is not required. Generally, a width (measured along a longitudinal length of the transverse divider wall) of two or more or all of the female connecting features or slots is the same on a transverse divider wall. Generally, a thickness (measured transverse to a longitudinal axis of the transverse divider wall) of two or more or all the female connecting features or slots is the same on a transverse divider wall.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the one or more axial divider walls (when used) include one or more male connecting features or tabs positioned on the side end of the axial divider wall. The one or more tabs are formed on an upper portion of one or both side of the axial divider walls. The one or more tabs are generally spaced and sized to mate with a corresponding female connecting features or slots in in the transverse divider wall. The one or more tabs are configured to be positioned in a female connecting features or slots in the transverse divider wall. The width of the one or more tabs is generally equal to or greater than the thickness of the female connecting features or slots in the transverse divider wall. In one non-limiting configuration, the width of the one or more tabs is generally greater than the thickness of the female connecting features or slots in the transverse divider wall. In one non-limiting design, the width of the one or more tabs is generally 5%-50% greater (and all value and ranges therebetween) than the thickness of the female connecting features or slots in the transverse divider wall. The configuration of having the width of the tabs being a greater than the thickness of the female connecting features or slots of the transverse divider wall is to inhibit or prevent the ends of the axial divider wall from disengaging from the transverse divider wall. Such a configuration is an improvement over prior art divider systems.
In accordance with another and/or alternative non-limiting aspect of the compartment system, the one or more axial divider walls (when used) include one or more female connecting features or slots formed on a lower edge of each axial divider wall. The female connecting features or slots are generally configured to mate with a female connecting features or slots in the transverse divider wall. The longitudinal length of one or more of the female connecting features or slots on the axial divider wall is greater than 50% a height of the axial divider walls. In one non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 55-90% a height of the axial divider wall (and all values and ranges therebetween). In another non-limiting design, the longitudinal length of one or more of the female connecting features or slots is about 60-90% a height of the axial divider wall. When the axial divider wall includes two or more female connecting features or slots, the longitudinal length of the female connecting features or slots is the same; however, this is not required. Generally, a width (measured along a longitudinal length of the axial divider wall) of the female connecting features or slots is within ±5% of a thickness of the transverse divider wall to which the axial divider wall is to be connected.
In accordance with another and/or alternative non-limiting aspect of the compartment system, one or more transverse divider walls include a floor portion. The floor portion is formed on a lower edge of the transverse divider wall. When the divider is assembled and placed within the interior area of the box, the floor portion is oriented generally perpendicular to the body of the transverse divider wall. Generally, the floor portion is positioned parallel to the base of the interior area of the box, and the body of the transverse divider wall extends upwardly from the base of the interior area of the box when the divider is assembled and placed within the interior area of the box. The longitudinal length of the floor portion can be the same or less than the longitudinal length of the body of the transverse divider wall. Generally, the longitudinal length of the floor portion is 50-100% (and all values and ranges therebetween) the longitudinal length of the body of the transverse divider wall. The width of the floor portion is generally at least one inch. In one non-limiting configuration, the width of the floor portion is 50-100% (and all values and ranges therebetween) the distance the of a) the body of the transverse divider wall spaced from a side of the interior area of the box that is positioned parallel to the face of the body of the transverse divider, and/or or b) the distance the body of one transverse divider wall positioned from the body of another transverse divider wall. The use of the floor portion facilitates in maintaining the divider in the interior area of the box, and/or providing structural strength to the transverse divider wall to thereby inhibit or prevent bending of the transverse divider wall. Such a feature is another improvement over prior art divider systems. The thickness of the floor portion is generally the same or less than a thickness of the body of the transverse divider wall. Prior to the full assembly of the divider, the floor portion can lie in a plane that is parallel or non-parallel to the lateral axis of the transverse divider wall. When the front face of the floor portion lies in a plane that is parallel to the lateral axis of the transverse divider wall, the floor portion is configured to be bendable at the connection location of the floor portion so that the floor portion can be bent until the front face of the floor portion is at least 60° and typically 80-110° (and all values and ranges therebetween) to the lateral axis of the transverse divider wall. Such bending can be facilitated by a groove, scoring, slots, etc. Alternatively, when the floor portion is not configured to be bendable relative to the transverse divider wall, the floor portion is generally oriented about 85-95° (e.g., 90°) to the lateral axis of the transverse divider wall. The one or more floor portions (when used) can provide additional strength and support needed to accommodate and safely store bigger, heavier, or larger number of objects in the box or container. Also, the one or more floor portions (when used) can provide additional stability to the divider. Dividers that are configured to fit within large or oversized boxes, for example, may be more prone to flexing or shifting, compared with smaller dividers and boxes, especially during assembly of the divider itself or when various objects are being placed within a box and divider in the assembled configuration. The one or more floor portions can be configured to provide the additional stability, strength, and/or support for larger dividers and boxes and for the safe storing of various objects therein. Such floor portions provide an advantage over prior art dividers.
In accordance in another and/or alternative non-limiting aspect of the compartment system, the components of the divider can be made from any desired material, the particular material used being non-limiting (e.g., paper, cardboard, plastic, thermoplastic, polymer, rubber, metal, wood, etc.).
These and other objects and advantages will become apparent from the discussion of the distinction between the invention and the prior art and when considering the preferred embodiment shown in the accompanying drawings.
Reference may now be made to the drawings, which illustrate various embodiments that the invention may take in physical form and in certain parts and arrangements of parts wherein:
A more complete understanding of the articles/devices, processes and components disclosed herein can be obtained by reference to the accompanying drawings. These figures are merely schematic representations based on convenience and the ease of demonstrating the present disclosure, and are, therefore, not intended to indicate relative size and dimensions of the devices or components thereof and/or to define or limit the scope of the exemplary embodiments.
Although specific terms are used in the following description for the sake of clarity, these terms are intended to refer only to the particular structure of the embodiments selected for illustration in the drawings and are not intended to define or limit the scope of the disclosure. In the drawings and the following description below, it is to be understood that like numeric designations refer to components of like function.
The singular forms “a,” “an,” and “the” include plural referents unless the context clearly dictates otherwise.
As used in the specification and in the claims, the term “comprising” may include the embodiments “consisting of” and “consisting essentially of.” The terms “comprise(s),” “include(s),” “having,” “has,” “can,” “contain(s),” and variants thereof, as used herein, are intended to be open-ended transitional phrases, terms, or words that require the presence of the named ingredients/steps and permit the presence of other ingredients/steps. However, such description should be construed as also describing compositions or processes as “consisting of” and “consisting essentially of” the enumerated ingredients/steps, which allows the presence of only the named ingredients/steps, along with any unavoidable impurities that might result therefrom, and excludes other ingredients/steps.
Numerical values in the specification and claims of this application should be understood to include numerical values which are the same when reduced to the same number of significant figures and numerical values which differ from the stated value by less than the experimental error of conventional measurement technique of the type described in the present application to determine the value.
All ranges disclosed herein are inclusive of the recited endpoint and independently combinable (for example, the range of “from 2 grams to 10 grams” is inclusive of the endpoints, 2 grams and 10 grams, and all the intermediate values).
The terms “about” and “approximately” can be used to include any numerical value that can vary without changing the basic function of that value. When used with a range, “about” and “approximately” also disclose the range defined by the absolute values of the two endpoints, e.g. “about 2 to about 4” also discloses the range “from 2 to 4.” Generally, the terms “about” and “approximately” may refer to plus or minus 10% of the indicated number.
Percentages of elements should be assumed to be percent by weight of the stated element, unless expressly stated otherwise.
Referring now to the drawings, wherein the showings are for the purpose of illustrating non-limiting embodiments of the disclosure only and not for the purpose of limiting the same,
With reference to
The one or more transverse divider walls 108 are illustrated in
Additional details of the components which make up the divider 101 can be seen with reference to
As shown in
As shown in
The connecting features or flanges include a flange extension 115 that is connected to the second side of the extension portion 113. As illustrated in
Prior to the full assembly of the divider, the flange extension 115 can optionally lie in a plane that is parallel or non-parallel to the longitudinal axis of the transverse divider wall. In such an arrangement, the flange extension 115 is configured to be bendable at the connection location of the extension portion 113 so that the flange extension 115 can be bent until the front face of the flange extension is 80-110° (e.g., 90°) to the longitudinal axis of the body 109 of the transverse divider wall 108. Such bending can be facilitated by a groove, scoring, slots, etc. Alternatively, the flange extension 115 can be pre-oriented at an angle of about 85-95° (e.g., 90°) to the longitudinal axis of the body 109 of the transverse divider wall 108.
As shown in
Referring now to
As illustrated in
Turning to
With reference to
Described another way, the first and second sidewalls 102a, 102b each include an outer surface 140 and 144, respectively, and an inner surface 142 and 146, respectively. The area formed between outer surfaces 140, 144 is substantially similar in size to the interior area 126 of the box 124 such that the divider 101 fits entirely therein. The inner surfaces 142, 146 define the interior 104 formed between the first and second sidewalls 102a, 102b.
The first end transverse divider wall 108a includes a first face 148 which at least partially defines transverse compartment 110a. The remaining portions of transverse compartment 110a are defined by the inner surfaces 142, 146 of the first and second sidewalls 102a, 102b and the box 124. A second face 150 of the first end transverse divider wall 108a at least partially defines the transverse compartment 110b. A first face 152 of the middle transverse divider wall 108b also partially defines transverse compartment 110b, with the remaining portions of transverse compartment 110b being defined by the inner surfaces 142, 146 of the first and second sidewalls 102a, 102b. The middle transverse divider wall 108b further includes a second face 154 which, together with a first face 156 of the second end transverse divider wall 108c, at least partially defines transverse compartment 110c. The remaining portions of transverse compartment 110c are defined by the inner surfaces 142, 146 of the first and second sidewalls 102a, 102b. The second end transverse divider wall 108c also includes a second face 158 which at least partially defines transverse compartment 110d, with the remaining portions of transverse compartment 110d being defined by the inner surfaces 142, 146 of the first and second sidewalls 102a, 102b and the box 124.
Finally, axial divider wall 116 bisects the second face 150 of the first end transverse divider wall 108a, the first and second faces 152, 154 of the middle transverse divider wall 108b, and the first face 156 of the second end transverse divider wall 108c. The axial divider wall 116 includes a first face 160 and a second face 162. In this regard, bisected compartment 118a is formed by the first face 160 of the axial divider wall 116, the bisected faces 150, 152 of the first end and middle transverse divider walls 108a, 108b, and the inner surface 142 of the first sidewall 102a. Bisected compartment 118b is formed by the second face 162 of the axial divider wall 116, the bisected faces 150, 152 of the first end and middle transverse divider walls 108a, 108b, and the inner surface 146 of the second sidewall 102b. Bisected compartment 118c is formed by the first face 160 of the axial divider wall 116, the bisected faces 154, 156 of the middle and second end transverse divider walls 108b, 108c, and the inner surface 142 of the first sidewall 102a. Bisected compartment 118d is formed by the second face 162 of the axial divider wall 116, the bisected faces 154, 156 of the middle and second end transverse divider walls 108b, 108c, and the inner surface 146 of the second sidewall 102b.
As illustrated in
Referring now to
Compartment system 200 generally includes a divider 201 adapted to fit within a box, such as box 124 illustrated in
As illustrated in
Similar to divider 101 described above, the one or more sidewalls 202a, 202b, one or more transverse divider walls 208a, 208b, 208c, and one or more axial divider walls 216 form a total of six (6) interior regions or compartments, including two transverse or large compartments 210a, 210d and four bisected or small compartments 218a, 218b, 218c, and 218d. However, in divider 201, the floor portions 230 and 232 of the first and second end transverse divider walls provide additional strength and support to the bottom of transverse compartments 210a and 210d. Since transverse compartments 210a and 210d are larger than bisected compartments 218a, 218b, 218c, and 218d, it is likely that a user may prefer to store bigger, heavier objects, or a larger number of objects, in the larger transverse compartments. In this regard, the floor portions 230 and 232 are configured to provide the larger transverse compartments 210a and 210d with the additional strength and support needed to accommodate and safely store such bigger, heavier, or larger number of objects.
Moreover, one or more floor portions, such as floor portions 230, 232, may be desired to provide additional stability to the divider 201. Dividers that are configured to fit within large or oversized boxes, for example, may be more prone to flexing or shifting, compared with smaller dividers and boxes, especially during assembly of the divider itself or when various objects are being placed within a box and divider in the assembled configuration. In this regard, one or more floor portions, such as floor portions 230, 232, are configured to provide the additional stability and support needed for larger dividers and boxes and for the safe storing of various objects therein.
Furthermore, it should be understood that the location of any exemplary floor portion, such as floor portions 230, 232 described above, is non-limiting. That is, while floor portions 230, 232 are illustrated as being formed on one side of the first and second end transverse divider walls 208a and 208c, such an arrangement is only exemplary and additional floor portions may be formed at additional locations as desired without departing from the scope of the present disclosure. For example, one, some, or all of compartments 210a, 210d, and 218a-218d may be provided with a floor portion formed on any one of transverse divider walls 208a-208c or axial divider wall 216. In this regard, the location of the one or more floor portions may depend on, for example, the divider and box size or the type of objects that are to be stored within the box formed by the divider.
The compartment systems described herein, including the exemplary dividers, boxes, and lids which make up such compartment systems, can be made from any desired material, the particular material used being non-limiting. For example, the presently disclosed compartment systems and components associated therewith can be made from materials such as paper, cardboard, plastic, thermoplastic, polymer, rubber, metal, wood, etc., and combinations thereof, without departing from the scope of the present disclosure.
Furthermore, any number of methods may be used to form the compartment systems and dividers of the present disclosure. In one non-limiting example, the components of the dividers described herein can be manufactured and provided as preformed components. Such preformed components could be manufactured at the requisite size and with the requisite connecting features (e.g., the male and female connecting features described above) such that a divider can be assembled which fits within boxes of a predetermined size. Injection molding, for example, could be used to form such preformed components.
In another non-limiting example, partially complete elements (not shown) are provided which can be subsequently manipulated to form each component of a divider, including one or more sidewalls, transverse divider walls, and axial divider sidewalls as described above. The partially complete elements can be substantially flat sheet or board-like materials which include one or more score, crease, or cut lines. The score, crease, or cut lines indicate how each partially complete element should be manipulated to form fully complete divider components and features. For example, cut lines are provided to indicate where female connecting features should be formed (such as slots 106a-106f in sidewalls 102a, 102b, slots 114a-114b in transverse divider walls 108a-108c, and/or slot 122 in axial divider wall 116). Score or crease lines are provided to indicate where folds should be made to form male connecting features (such as flange pairs 112a-112c on transverse divider walls 108a-108c).
Moreover, in other non-limiting embodiments, multiple score, crease, or cut lines can be provided at every location where a connecting or dividing feature is to be formed. As such, final components can be constructed that enable the assembly of an adaptable divider which can, depending on the particular score, crease, or cut lines used: (a) fit within a range of box sizes; (b) form varying arrangements of storage compartments; and/or, (c) form varying sizes of storage compartments.
Even though the exemplary compartment systems and dividers associated therewith may be particularly suitable to the organization and storing of specific items and objects such as, for example, school-related materials like pens, pencils, erasers, scissors, staples, staplers, crayons, markers, etc., it should be understood that any desired item can be stored without departing from the scope of the present disclosure. Moreover, the dimensions of the exemplary compartment systems and dividers associated therewith are non-limiting. It should be clear from a reading of the present disclosure that the exemplary compartment systems and associated dividers can be sized to any desired dimension without departing from the scope of the embodiments discussed herein.
While considerable emphasis has been placed herein on the structures and configurations of the preferred embodiments of the disclosure, it will be appreciated that other embodiments, as well as modifications of the embodiments disclosed herein, can be made without departing from the principles of the disclosure. These and other modifications of the preferred embodiments, as well as other embodiments of the disclosure, will be obvious and suggested to those skilled in the art from the disclosure herein, whereby it is to be distinctly understood that the foregoing descriptive matter is to be interpreted merely as illustrative of the present disclosure and not as a limitation thereof.
The present disclosure is a continuation of U.S. application Ser. No. 16/682,030 filed Nov. 13, 2019, which in turn claims priority to United Stated Provisional Application Ser. No. 62/778,599 filed Dec. 12, 2018, which are incorporated herein by reference.
Number | Date | Country | |
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62778599 | Dec 2018 | US |
Number | Date | Country | |
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Parent | 16682030 | Nov 2019 | US |
Child | 17572339 | US |